Self-stirring cooking utensil



P. "MONATH SELF-STIRRING- COOKING UTENSIL Filed April 26, 1944 March 19, 1946. 2,396,924

' '1 sheets-sheet 1 IN V EN TOR. flux. J/O/VA r/r I BY- I ATTORNEY March19, 1946. P. MONATH- 'SELF-STIRRING cooxme firms-I1. v

Filed April 26, 1944i -7 Sheets-Sheet 3 v INVENTOR. 2944a MON/17H 4 ATTORNEY March 19, 1946. PKMQNATH- v SELF-STIRRING COOKING UTENSIL '7 Shee ts-Sheet 5 Filed April. 26, 1944' .5 5 WA A W.

March 19,1946. P. MONATH 2,396,924

' SELF-STIRRING cooxme UTENsIL Filed April 26, l944 '7 Sheets-Sheet 6 1zz INVENTOR.

March 19, 1946. P. MONATH 2,396,924

SELF-STIRRING COOKING UTENSIL Filed April 26, 1944 7 Sheets-Sheet 7 zsw I IIIII IIIIIIII IIII IIIIIIQ(:Qag,

v INVENTOR. flu; MON/4 7 Patented Mar. 19, 1946 UNITED STATES PATENT OFFICE sE-LF-sTmRrNG COOKING UTENSIL Paul Monath, Hewlett, N. Y.

Application April 26, 1944, Serial No. 532,122

11 Claims. 7 (01. 99348) My invention consists in the novel features hereinafter described, reference being hadto the accompanying drawings which illustrate several embodiments of the same, selected by me'for-purposes of illustration, andthe said invention is fully disclosed in the following description and claims.

The present invention relates to apparatus for simultaneously heating and stirring fluid or semifiuid material, and in particular, to self-stirring cooking utensils.

In cooking fluid or semi-fluid material such as cereals, cream sauces, jellies, jams, lues, etc., it is frequently necessary to stir the material intermittently or continuously to prevent its becoming scorched or lumpy. In the usual household, hotel 1 or restaurant, the stirring has heretofore been done by hand and has'meant-that the person-preparing the material has had'to stand by the stove for considerable periods of time to stir the material while it is cooking. It has been proposed to use electrically driven stirrers, but this requires an electric motor, wiring and-controls. Moreover, it is not desirable to subject an electric motor to the heat and vapors incident to cooking or to have electric wires extend across the top of a stove to a cooking utensil located thereon. It has also been proposed to provide a cooking utensil with stirring mechanism driven by clockwork, but this requires the labor of periodically winding the spring of the clockwork mechanism, as such mechanism will,

because of the power required for the stirrer, run only for a very limited periodof time without rewinding.

It is an object of the present invention to provide a compact, self-contained unit for simultaneously heating and stirring fluentor semi-fluent material. In accordance with my invention embodied for example in a self-stirring cooking utensil, the material can be stirredcontinuouslywhile being cooked over long periods of time without more than casualattention of-an operator. This means'that in the 'househol'dthe person doing the cookingis'freeforother duties or relaxation, while :in a commercial establishment a single operator canfbet in chargeof a plurality "of such cookers and may stillhave time :for other'things.

Many preparations that require stirring While being cooked areeasily-scorched, andwithout the exercise of extreme oare,'scorching is liable to-occur if the pan in which the preparation bein cooked is put directly on the stove. It i a feature of my invention that this danger of scorching is avoided. In accordance with my invention, the heatof the stove'orotherheatsource.is not applied directly to the substance being cooked,

but is applied rather to a steam generating chamher, which is separate from but in heat transferring relation to the cooking vessel. This steam chamber also supplies steam under pressure to steam operated driving mechanism =for-a stirrer or agitator in the receptacle for the material being cooked. The steam chamber thus serves the dual roll of applying modified and controllable heat to the cookin vessel and of supplying motive power for the stirring mechanism.

As distinguished from the usual doubleboiler in which the temperature applied to the upper compartment can be no greater than the temperature of boiling Water, a feature of my inventionis that the heat applied to the receptacle containing the substance being cooked is higher than the pointat which water'boils while still being sufficiently low to avoid scorching of the substance. This is achieved by holding thesteamin'the steam chamber under pressure whereby the temperature appliedto the cooking vessel depends on the ,pressure and hence the temperature of the steam in the 'steam'chamber. Means is provided for regulating the pressure in the steamchamber and thereby controlling the heat-applied to the cooking vessel. When a higher temperature is applied to the material being cooked, it will in general be desirable'to stir the-material more rapidly while With a lower temperature it may be preferable to stir the materia1 more slowly. This result is automatically achieved by the apparatus in accordance with my invention, since the higher steam pressure necessary to obtain the higher cooking temperature will result in the steam operated stirring mechanism being driven more rapidly. In accordance with a preferred embodiment, means is provided for separatelyregulating the speed of the stirrer. .Afurtherfeature of mytinvention is that inone embodiment thereof the stirrer is driven alternately in opposite directions to provide-a reciprocating or oscillating stirringaction for more effective agitation and mixing of the material.

Substances of a semi-fluid nature such as porridge, cream sauce or jam, usually have a rather critical Water content. If water is added they be- .com too thin, while if too much water is extract ed they became too thick. In accordance with my invention, the automatic stirring is eifectedwithout disturbing the water content of the material being stirred. The cooking .vessel is provided with a cover and this cover may be in place to close the vessel during cooking without in any way interfering with the automatic stirring action. Alternatively, the cover canbe removed for inspection of the contents of the cooking vessel without indescription of the embodiment shown by. way of example in the accompanying drawings and from the appended claims.

In the drawings:

Fig. 1 is a side elevation of one embodiment of my invention, with a portion of the wall of the container broken away to show internal construction.

Fig. 2 is arear elevation of the embodiment shown in Fig. 1.

Fig. 3 is a top plan view with thecover removed and with portions shown in section.

Fig. 4 is an enlarged scale, fragmentary, vertical sectional view taken approximately on the line 44 of Fig. 2.

Fig. 5 is an enlarged sectional view taken approximately on the line 5-5 in Fig. 1.

Fig. 6 is a sectional view taken approximately on the line 66 of Fig. 1.

Fig. '7 is a vertical sectional view of the valve mechanism taken approximately on the line 'l-l of Fig. 4.

Fig. 8 is a sectional view through the valve mechanism taken approximately on the line 83 of Fig. 4.

Fig. 9 is a horizontal sectional view of the valve mechanism taken approximately on the line 9-9 of Fig. 7.

Fig. 10 is a rear elevation of the valve element.

Fig. 11 is a vertical sectional view corresponding approximately to Fig. 5, but showing a modifled form of drivin mechanism.

Fig. 12 is a sectional view taken approximately on the line |2-l2 of Fig. 11.

Fig. 13 is a fragmentary sectional View taken approximately on the lin |31-|3 of Fig. 12. a

Fig. 14 is a sectional view taken approximately on: the line ld-M of Fig. 13.

Fig. 15 is an outside elevational view of a further embodiment of the driving mechanism and valve.

Fig. 16 is a vertical sectional view of the driving mechanism shown in Fig. 15 and taken approximately on the line |6|6 in Fig. 17

Fig. 17 is an elevation, partially in section, taken on the line I'I-i! in Fig. 15. 4

Fig. 18 is a fragmentary sectional view throng the valv mechanism taken approximately on the line |8-|8 in Fig, 15, certain parts of the mechanism being omitted for the sake of clearness.

In the embodiment of my invention shown by way of example in Figs. 1 to 10 of the drawings, a vessel or receptacle l for the material to be cooked is superimposed on a steam chamber 2. The steam chamber 2 and receptacle I are separate from one another in the sense that they do not communicate, and the receptacle may, if desired, be made removable from the steam chamber. However, in the embodiment shown in the drawings, asingle container is divided by a common wall 3 into two compartments, the upper of which forms the cooking vessel an the lower the steam chamber. The dividing wall 3 and the joint 4 are both fluid tight so that the steam chamber is closed except for the passageways and openings hereinafter mentioned, and a fluid tight receptacle is provided for the liquid 0r semi-liquid material to be cooked. The cooking vessel I is provided with a cover 5, which may if desired be made steam tight so that the material in the vessel may be cooked under pressure.

The steam chamber 2 is provided with an opening 6 which communicates with an upwardly projectin filler pipe 1. The filler pipe is secured to the steam chamber by means of a fitting 8 held in place by a bolt and nut 9 which can be drawn up to provide a fluid tight joint between the fitting and the steam chamber. By unscrewing the bolt and nut the filler pipe i together with the fitting 8 can be removed. A second opening H in the steam chamber 2 communicates with a tube l2 which extends through the fittin 8 and up inside the filler pipe 1, being flattened at its upper end 3 to provide a restricte opening, The upper end of the filler pipe is threaded and is provided with a threaded fiuid'tight closure M which will be described in more detail below;

The cooking vessel is provided with a stirring element or agitator l5, which is pivotally mounted for rotary or oscillating movement in the vessel. The stirrer or agitator may be of various forms, dependin n the nature of the material being treated an a plurality of forms may be made interchangeable in order to handle different types of material in the same vessel. In the embodiment shown in the drawings, the stirrer comprises inclined blades I6 projecting outwardly from a central vertical shaft ll, th blades bein preferably located near the bottom of the vessel and inclined in such manner that material is removed from the bottom and forced upwardly. The shaft H is rotatably supported by a bearin I8 carried by a bracket H] which extends across the receptacle and fits snugly into slight recesses 2| formed in the side walls of the receptacle. Power for driving the stirrer is transmitted through a bevelled gear 22 at the upper end of vertical shaft H, which engages a bevelled gear 23 on a transverse shaft 24, rotatably supported by bearings 25 in a housing 26, which extends from the bracket 9 to the side Wall of the receptacle and furthe supports and steadies the stirrer. The outer end of the housin 26 fits into a recess 21 similar to recesses 2|, while the outer end of the transverse shaft 24 is detachably connected by a couplin 28 with mechanism for driving the stirrer. Thus the stirrer assembly, including bracket l9, shaft 24 and housin 26 is readily removable as a unit from the receptacle merely by lifting the bracket i 9 until clear ofrecesses 2| an then movin it upwardly and to the right, as viewed in Figs. 1 and 4, to disengage the shaft 24 from the driving mechanism and is replaceable in reverse manner. The ends of'bracket i5 and housin 26 preferably fit snugly into the recesses 2| and 27, so that when in operative position, the stirrer unit is held by friction as well as gravity.

The drivin mechanism for the stirrer is operated by steam and is mounted adjacent the cooking vessel, either inside or outside thereof. If the steam chamber and cookin vessel are made as separable units, the driving mechanism is preferably supported by the steam chamber so that the cooking vessel can be lifted ofi without disturbing the connections between the steam chamber and the driving mechanism. In the embodiment shown in the drawings, the driving mechanism indicated in general by the reference numeral 29, is carried by a bracket 3| removably secured to the side wall of the receptacle by a stud bolt and nut 32, so that the entire driving mechanism can be dismounted as a unit.

The driving mechanism 29 comprises'a cylinder and piston which are reciprocable relative to one escapee another. vIn the embodiment illustrated in the drawings, the cylinder .is held stationary 'while the pistonreciprocates. As will be seen from'Fig. the cylinder assembly comprises opposed cylinder heads .33 and 34, connected by a central ring .35. Opposed piston heads '36 and 3:! provided *with piston rings '33 are reciprocable in cylinders 332116.134 respectively and are connected by a rod 3.9. Gear teeth are .cut on the connecting :rod 39t0 form a rack M which engages a'pinion 42 on a shaft All, rotatablysupported by hearings in the center ring 3.5. 'The shaft 40 is connected by the aforementioned coupling-28 with .the driving shaft 24 of the stirrer. It will be apparent that as the pistons reciprocate'in'the cylinders,;engagement of rack M 'with pinion 4.2'Wl11 .cause the pinion and hence the stirrer-to rotate alternately in opposite directions, thereby providing an effective oscillating stirring action.

The driving mechanism is operated by steam supplied :from the steam pressure chamber 12 through passageways automatically controlled by valve mechanism to admit steam alternately to the :opposite cylinder heads-33, 34, to produce :reciprocation of the pistons. The valve mechanism-referred to generically by reference numeral 43 is mounted on the bracket 3| that supports the driving mechanism and "comprises a steam chest -44 having a backplate 45 and a removable cover plate 46. The backplate-forms a valve seat and is provided with spaced inlet ports 41.. '48, connected respectively by inlet passageways 4-9, 50, with cylinders 33 and 34. The backplate is also provided with an exhaust port 5! which discharges either to the atmosphere or elsewhere, as desired. For example, the exhaust may be-discharged intothe cooking vessel if more "moisture is desired in the contents thereof. The steam chest is .also connected with the filler pipe 1 of steam chamber 2 by a passageway 52 provided with a throttle 53. As the filler pipe 1 extends upwardly from the steam chamber it is'above the water line and acts'as a steam dome,-so that relatively dry steam is supplied to the steam chest 44 The supply of steam from the steam chest-to .the cylinders is controlled by .a valve element 54 which seatsontheinneriace of the backplatellii of the steam chest and is held in contact with said plate by the pressure of the steam. The valve element5 l is .provided on its inner face with a connecting passage or recess 55 and is swingable about a pivot post 551mm the position shown in Fig. 7 in which the recess 55 connects inlet port 48 with the exhaust port 5! ,to a position about 30 clockwise in which the inlet port is connected with the exhaust port. It will be seen that when one inlet port is connected with the exhaust port the other inlet port is uncovered to admit steam under pressure from the steam chest, thereby supplying steam to the respective cylinders. Thus in the positions shown in Figs. 5 and '7, steam'is admitted to cylinder 33 through passageway 49, while the cylinder 34 is connected with the exhaust port 5| through the passageway 50, the port 48 and the connecting passage 55 in valve member 54.

The shifting of valve element .54. from one position to the other-is efiected by the driving mechanism in synchronism with reciprccations of the pistons to supply steam to the respective cylinders at the proper time to produce reciprocation. Inthe embodiment shown in Figs. 1 to (see particularly Figs. 5, 7, 8 and 9) a shaft 60, which is coaxialwith pivot post 56 extends out through a .steam itight .gland .51 "in the cover plate .46 :of the steam :chest and is provided .at .its outer end with arrazdially projecting member shown in the formrof a resilient finger 5.8. The finger 58pxtends up through an opening 159 in-the central ring .35 connecting the two cylinder heads, and the upper end of the finger lies in the path of projecting pins 61, 62 carried by the rod 39 that connects the :two pistons. It will be seen that as thepistons approach-the end of their stroke tothe left, as viewed in Fig. 5, the pin 62 engages finger :58 torock the shaft 60 ina counterclockwise direction. When the pistons approach the end:of their stroke'towards the right, Din'lil engages Lfinger58 to rock the shaft 60 in a clockwise direction.

This oscillation -:of shaft .60 does :not directly swing the valve member .54 from-one position to another ,as the valve member is not fixed on the shaft, .but is connected therewith through a resilient connection. :In-the embodiment shownby way of example in the drawings, the connection is in the .form'of a flat springfis, which projects radially from a collar 64, fixed on shaft 60 inside the steam chest. The outer end of this spring is held between two pins projecting from the valve element 54 near its outer end. It will be seen that the rocking of the shaft in eitherdirection will transmit force through spring 63 tending to swing the valve member in the same direction; However, during the initial portion of the rocking movement of the shaft, the valve element is held against movement, and energy for swinging-the valveelement .is stored in spring 53. The means for .releasably holding the valve element in one or the other ofits positions until the piston nears theend, .of its stroke is shown as "a spring .pressed pawl 56 which is pivoted at 5'! and is adapted alternately toengage notches 8,459 in the periphery of valve element 54. The shapeand location of the notches and the pawl and therelativ stifiness'ofspring H of the pawl and spring 5-3 are such that the valve element is .held in one position until sufiicient energy .is stored in spring 6-3 to swing it all .the way to the otherposition. Moreover as soon as the valve element is'released from one position, the spring pressed pawl engages with the other notch and further tends to swing the .element all the way to its other position. The valve element .is thus swung from one ,position to the other by snap action, energy being stored in spring 63 during movement of the piston in one direction to swing the valve element to its other position near the end of the stroke, so as to control the steam passageways to produce movement in the reverse direction. Continuedautomatic operation of the mechanism is thus assured despite the fact that the mechanism .does .not'have substantial inertia to carry it over from one stroke to the next.

It willibe understood from the above description that the steam pressure chamber 2not only modifies and controls the heat applied to the cooking vessel but also supplies motive power for the stirrer by furnishing steam fo the driving mechanism '29. As the steam pressure in chamber increases, a higher degree of heat is applied to the cooking vessel. 'Moreover with an increase in steam pressure the driving mechanism will run fasterothe conditions being equal. This interrelationship is highly advantageous as it will generally be desirable for the contents of the vessel to be stirred faster the more rapidly they are cooked. Means for simultaneously regulating the rate of cooking and-rate of stirring is shown in Fig. 6. The closure I4 for the upperend of filler pipe I is provided with a tapered aperture I2, a valve pin 13 having a tapered end 14 is pressed into aperture I2 bya coil spring 15. The upper end of spring I5 abuts a threaded strut I6 which can be screwed in or out of a correspondingly threaded recess in closure member It to adjust the tension of the spring. At the upper end of valve pin I3 there is provided a radially projecting handle 11, the shank of which is adapted to engage a cam surface I8 provided on the upper end of a collar I9, which is screwed onto the upper portion of strut It. In the position shown in Fig. 6, the spring pressed plunger I3 completely closes the aperture I2. By turning the plunger by means of the handle TI, the shank of the handle is caused to ride up on the inclined cam surface I8, thereby opening the aperture I2 to varying degrees depending on how far the handle is turned. Thus the pressure in the steam chamber can be controlled by varying the opening of aperture I2 and thereby regulating the escape of steam from the chamber. The spring pressed plunger 13 also acts as a safety valve, since excessive pressure in the chamber will unseat the plunger against the action of spring I5, thereby permitting the escape of steam.

In addition to the dual control afforded by handle 11, making it possible to regulate both the cooking temperature and the rate of stirring simultaneously, the latter of which can be controlled by means of the throttle 53, by opening the throttle valve 53, the rate of stirring can be increased, while by decreasing the opening of the valve, the stirring mechanism can be made to run more slowly.

The operation of the cooking vessel will be understood from the above description. In using the vessel the material to be cooked is placed in a the cooking receptacle I and water is supplied to the steam chamber 2 through the filler pipe I. The proper water level in the steam chamber can be determined or controlled by a suitable gauge device shown in the drawings as a gauge valve 80, which can be opened to drain off excessive water and thereby establish the proper level. After closing the gauge valve 80 and the opening of the filler pipe, heat is applied to the vessel, as by placing it on a stove or turning on a heating element or burner to bring the water in the steam chamber to the boiling point. During this initial stage no stirring of the material contained in the cooking receptacle is necessary, as a cooking temperature has not yet been reached. However, as soon as steam pressure has been generated the steam will be admitted to the cylinders 3334, to drive the stirring mechanism. The cooking temperature can be controlled either by controlling the heat applied to the vessel or by means of the'regulating handle I! as described above. The speed of operation of the stirrer can be controlled by the heat applied or by the adjustment of the handle 11, and also by means of the throttle valve 53. Considerable flexibility of control in the operation of the cooking vessel thereby provided. Moreover, the expansion type, steam pressure operated motor and connecting gearing described above provides a low speed, high torque drive for the stirrer I5, as required, for example, in stirring viscous, semi-fluid materials such as porridge, cream sauce or jam.

A further embodiment of my invention is shown by way of example in Figs. 11 to 14. wherein corresponding parts are designated by the same reference numerals as in Figs. 1 to 10 with theaddi tion of I 00. In this embodiment the stirrer is rotated continuously in the same direction, instead of alternately in opposite directions. The continuous rotation of the stirrer is obtained by a different driving connection between the re-'- ciprocating pistons and the stirrer. The pistons I 36, I31 are in this instance connected by a hollow or bifurcated connecting rod or member I39 carrying opposed rack sections MI. As will be seen from Figs. 11 and 12 these rack sections face inwardly and are ofiset laterally from one another. On the horizontal shaft I40 which transmits power to the stirrer there are provided two pinions I42, each of which engages one of the racks MI. These pinions are rotatable on the shaft I40 and each are connected therewith by a uni-directional clutch or ratchet I82 shown inthe drawings as a ball I83 contained in a wedge-shaped recess I 84 formed in the pinion or in a hub portion I85 connected therewith. When the pinion rotates in a counterclockwise direction as viewed in Fig. 13 the ball I83 will wedge against the shaft and cause the shaft to be rotated with the pinion. When the pinion is rotated in the opposite direc tion it will run free and not drive the shaft. The clutches I82 are so arranged that both of the pinions will drive the shaft in the same direction. It will be understood that as the piston I38, I31 and the rack sections I II reciprocate, the two pinions will be driven in opposite directions. Thus a the pistons move toward the right from the position shown in Fig. 11, the pinion engaging the lower rack will be rotated in a counterclockwise direction, while the pinion engaging the upper rack will be rotated in a clockwise direction. By reason of the uni-directional clutches or ratchets I82 the shaft will be driven alternately by the two pinions and will always be rotated in the same direction. The reciprocatory motion of the pistons is thereby translated into unidirectional ro ary movement of the stirrer. Except for the different driving connections described above, the embodiment shown in Figs. 11 to 14 may be the same as that of Figs. 1 to 10.

In Figs. 15 to 18 I have shown a further modification of my invention in which corresponding parts are designated by the same reference numerals as in Figs. 1 to 10 with the addition of 200. In this embodiment of my invention the stirrer is driven through a pinion 242 which engages a rack 2M provided on the connecting rod 239, connecting the piston heads 236 and 231. The connecting rod 239 is provided with a second rack 286 which engages a pinion 28'! on a rotatable shaft 288. At its outer end the shaft 288 is provided with a gear 289 which meshes with a similar gear 290 provided on the outer end of the shaft 260 of the valve mechanism 243 which controls the supply of steam to the driving cylinders 233, 234. The shaft 260 extends through a steam pipe gland 251 into the interior of the steam chest 244 and is provided with suitable bearing surfaces by which the shaft is rotatably supported. A valve element 254 which may be the same as the valve element 54 shown in Figs.

'7, 9 and 10 is rotatably supported on the shaft its outer' end. to apin or bracket 265 carried by the valve element 254.

It will be seen that as the pistons 236, 231 and the connecting rod 239 reciprocates, the shaft 260 of the valve mechanism will be rotated alternately in opposite directions,- being driven through the rack 286', the pinion 281, shaft 288 and intermeshing gears 289, 290. The gear ratios are selected so that the'reciprocatory movement of the pistonswill produce an oscillation of shaft 260 of somewhat more than 360 degrees As the pistons approach the end of their stroke in one direction, the pin 29'] on the shaft 250 will engage the spring 263- c'arried by the valve element 254 and willdefiect the spring to store up energy for shifting the valve element to a position for supplying steam to the cylinder to drive the pistons in the opposite direction. Upon rotation of the shaft 260 in the opposite direction, the pin 29! will engage the opposite side of leafspring 263 to shift the valve element 254 back to its previous position. It will be understood that means may be provided for releasably holding the valve element in one or the other of its positions until the piston nears the end of its stroke; as in the embodiments previously described; and as shownfor example in Fig. 7-.

Except for the differences described above the embodiment of 'my invention shown in Figs. to 18 may be substantially the same as that shown in Figs. 1 to 10. It will be understood moreover that the various forms of my invention illustrated in the'drawings are shown solely by way of example, without in any way limiting the invention to the precise details shown, and that many alterations or modifications may be made within the scope of my invention as defined by the appended patent claims.

What I claim and desire to secure by Letters Patent is:

1. In a cooking utensil, the combination with a fluid-tight vessel, of a steam pressure chamber in heat transferring relation to but out of communication therewith, a stirring element in said vessel, opposed steam cylinders mounted adjacent said vessel, a piston head reciprocable in each of said cylinders, means connecting said piston heads with said stirring element and with each other, passageways connecting said cylinders with said steam pressure chamber, and valve means actuated by reciprocation of said piston heads to admit steam under pressure alternately to said cyhnders to produce reciprocation of said piston heads and thereby actuate the stirring element.

2. In a household appliance, the combination with a fluid-tight receptacle, of a steam operating chamber in heat transferring relation to said receptacle but separate therefrom, an agitator pivotally supported in said receptacle, opposed steam cylinders mounted adjacent said receptacle, a piston head reciprocable in each of said cylinders, a rack extending between said piston heads, a pinion engaging said rack, power transmitting means connecting said pinion with the agitator, and valve controlled passageways for supplying steam from said chamber alternately to said cylinders to produce reciprocation of said piston heads and thereby actuate said agitator.

3. In combination with a fluid-tight receptacle, heating and stirring mechanism comprising a steam pressure chamber in heat transferring relation to said receptacle but separate therefrom,

a stirring element: "pivotally supported said receptacle, opposed steam cylinders mounted asj'a'c'ent said reeeptame, a; piston head recipreeame in each of Said cylinders, a rack extending be tween said piston heads,- a pinion rotatably sup= ported engagement with said? rack, means-fer trar'fsln-ittihgpoWe'r from said pinion tome Stirring" element, pas'sagew'ays connecting said cylinders with said steam: chamber, and valvemeans actuated by reciprocation of "said piston headsand rack for controlling the flow or steam tosaid' cylinders to producereci'proc'a-tiohor said ton heads and rack, and thereby driving 'thestif ring element. 7 V

4. In combination wan a fluid-tight receptacle, heating" and stirring mechanism c'aon'ir irisi'n'g" a steam pressure chamber in heat transferring relation to= said receptacle but separatetherefrom; a stirring element pivotally supported in said i ecept'acle; steam operated driving mechanism fbr said stirring elementcomprising a steam cylin der and piston reciprocable relative to one an other, passageways connecting said drivihgmecl'i anism' mm said steam pressure chamber, and snap acting valve" means operated by theraative reciprocation of said piston and'cylinder fer con trolli'ng the how of steam tosaid driving maria msm.

5; In combihatioh with a fiuid tight receptacle, heating: and stirring mechanism comprising" a steampressure chamber in heat transferring fe lation to said receptacle but separate" therefrom; a stirring element pivotally supported saiar; ceptacle, steam operated driving means for said stirringelement comprising a steam cylinder and piston reciprocable relative to one anothenpassageways connecting said driving mechanism with said steam pressure chamber, a valve element for controlling the flow of steam to said. driving mechanism, said valve element being shiftable to one position to supply steam for producing relative movement of said piston and cylinder in one direction, and to another position for movement in the opposite direction, means for storing energy during relative movement of said piston and cyhnder in one direction to shift said valve element to its other position, and means for holding said valve element against such shifting until completion of movement in said direction.

6. In combination with a fluid-tight receptacle, heating and stirring mechanism comprising, a steam pressure chamber in heat transferring relation to said receptacle but separate therefrom, a stirring element in said receptacle, driving mechanism for said stirring element comprising a steam cylinder and piston, reciprocable relative to one another, a steam chest mounted adjacent said driving mechanism, a passageway connecting said steam chest with said steam pressure chamber, a pair of inlet passageways leading from said steam chest to said driving mechanism, and an exhaust passageway, a valve element movable between two positions in each of which one of said inlet passages is connected with the exhaust passage while admittingsteam to the other from said steam chest, resilient means acting on said valve element to urge it to one or the other of said positions, and a resilient connection between said valve element and said driving mechanism, cooperating with said first mentioned resilient means to move the valve element quickly from one to another of said positions in time with the relative reciprocation of said cylinder and piston.

e 7. Apparatus for simultaneously heating and agitating materials comprising'a container, a fluid tight wall dividing saidcontainer into a lower compartment forming a steam pressure generating chamber, and an upper compartment forming a receptacle for said materials, a closure for said receptacle, an agitator for the materials in said receptacle, steam operated driving mechanism for said agitator mounted adjacentrsaid receptacle, a filler pipe extending upwardly from said steam pressure chamber, a steam-tight closure for the upper end of said filler pipe, and a passageway connecting said filler pipe with said driving mechanism. Y

8. Apparatus for simultaneouslyheating and stirring materials, comprising a steam-pressure generating chamber, a receptacle for said materials superimposed on said chamber, a stirrer in said'receptacle, steam operated driving mecha nism for saidstirrer, a filler pipe extendingupwardl yfrom said steam pressure chamber, a passageway connecting said filler pipe with said driving mechanism, a closure for the upper end of said filler pipe, said closure having an aperture, a spring pressed plunger having a tapered end normally closing said aperture, and means for adjustably lilting the plunger against the action of its spring 3 to open said aperture. varying amounts.

-9. Apparatus for simultaneously heating and stirring materials, comprising a steam pressure generating chamber, a receptacle for said materials superimposed on said chamber in heat transferring relation therewith, a stirrer in said receptacle, steam operateddriving mechanism for said stirrer, a passageway for supplying steam steam chamber and thereby regulating the amount of heat applied to said receptacle, and means for separately regulating the speed said stirrer. V

10, Apparatus for simultaneously heating and stirring viscous materials comprising a steam pressure chamber; a receptacle for said materials in heat transferring relation to but out of communication with said vessel, a stirrer in said receptacle, a steam operated motor for said stirrer, a passageway for supplying steam under pressure from said steam pressure chamber to said motor to operate said motor, and means including gearing connecting said motor with said stirrer to provide a low speed, high torque drive for said stirrer. V 11 Apparatus for simultaneously heating and stirring materials comprising a steam chamber, a receptacle for said materials in heat transferring relation to but out of communication with said chamber, a stirrer in said receptacle, an expansion type motor, a passageway connecting said motor with said steam chamber, valve mechanism for controlling the admission of steam to said motor, and means including gearing connecting said motor withsaid stirrer to provide alow speed, high torque drive for said stirrer.

of operation of PAUL MONATH. 

